Abstract

The importance of a broad CD8 T lymphocyte (CD8-TL) immune response to HIV is unknown. Ex vivo measurements of immunological activity directed at a limited number of defined epitopes provide an incomplete portrait of the actual immune response. We examined viral loads in simian immunodeficiency virus (SIV)–infected major histocompatibility complex (MHC)–homozygous and MHC-heterozygous Mauritian cynomolgus macaques. Chronic viremia in MHC-homozygous macaques was 80 times that in MHC-heterozygous macaques. Virus from MHC-homozygous macaques accumulated 11 to 14 variants, consistent with escape from CD8-TL responses after 1 year of SIV infection. The pattern of mutations detected in MHC-heterozygous macaques suggests that their epitope-specific CD8-TL responses are a composite of those present in their MHC-homozygous counterparts. These results provide the clearest example of MHC heterozygote advantage among individuals infected with the same immunodeficiency virus strain, suggesting that broad recognition of multiple CD8-TL epitopes should be a key feature of HIV vaccines.

This manuscript demonstrates unambiguous major histocompatibility complex heterozygote advantage in macaque monkeys infected with the same strain of simian immunodeficiency virus, suggesting that a prophylactic HIV vaccine should elicit a population of CD8+ T cells with broad specificity.

This manuscript demonstrates unambiguous major histocompatibility complex heterozygote advantage in macaque monkeys infected with the same strain of simian immunodeficiency virus, suggesting that a prophylactic HIV vaccine should elicit a population of CD8+ T cells with broad specificity.